import option::some; import option::none; // FIXME: It would probably be more appealing to define this as // type list[T] = rec(T hd, option[@list[T]] tl), but at the moment // our recursion rules do not permit that. tag list[T] { cons(T, @list[T]); nil; } fn from_vec[T](vec[T] v) -> list[T] { auto l = nil[T]; // FIXME: This would be faster and more space efficient if it looped over // a reverse vector iterator. Unfortunately generic iterators seem not to // work yet. for (T item in vec::reversed(v)) { l = cons[T](item, @l); } ret l; } fn foldl[T,U](&list[T] ls, &U u, fn(&T t, &U u) -> U f) -> U { alt(ls) { case (cons[T](?hd, ?tl)) { auto u_ = f(hd, u); be foldl[T,U](*tl, u_, f); } case (nil[T]) { ret u; } } } fn find[T,U](&list[T] ls, (fn(&T) -> option::t[U]) f) -> option::t[U] { alt(ls) { case (cons[T](?hd, ?tl)) { alt (f(hd)) { case (none[U]) { be find[T,U](*tl, f); } case (some[U](?res)) { ret some[U](res); } } } case (nil[T]) { ret none[U]; } } } fn has[T](&list[T] ls, &T elt) -> bool { alt(ls) { case (cons[T](?hd, ?tl)) { if (elt == hd) { ret true; } else { be has(*tl, elt); } } case (nil[T]) { ret false; } } } fn length[T](&list[T] ls) -> uint { fn count[T](&T t, &uint u) -> uint { ret u + 1u; } ret foldl[T,uint](ls, 0u, bind count[T](_, _)); } fn cdr[T](&list[T] ls) -> list[T] { alt (ls) { case (cons[T](_, ?tl)) {ret *tl;} } } fn car[T](&list[T] ls) -> T { alt (ls) { case (cons[T](?hd, _)) {ret hd;} } } fn append[T](&list[T] l, &list[T] m) -> list[T] { alt (l) { case (nil[T]) { ret m; } case (cons[T](?x, ?xs)) { let list[T] rest = append[T](*xs, m); ret cons[T](x, @rest); } } } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // compile-command: "make -k -C .. 2>&1 | sed -e 's/\\/x\\//x:\\//g'"; // End: